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Record Information
Version2.0
Created at2022-09-02 07:54:03 UTC
Updated at2022-09-02 07:54:04 UTC
NP-MRD IDNP0151571
Secondary Accession NumbersNone
Natural Product Identification
Common Name2,6,6,10,14,17,17-heptamethyl-21,22-dioxahexacyclo[18.2.2.0¹,¹⁴.0²,¹¹.0⁵,¹⁰.0¹⁵,²⁰]tetracos-23-ene-7,8-diol
DescriptionBaccatin belongs to the class of organic compounds known as scalarane sesterterpenoids. These are sesterterpenoids with a structure based on the scalarane backbone. Scalarane is a tetracyclic compound, which is similar the homoandrostane with five methyl groups at the 4-, 4-, 8-, 17-, 17a-positions. 2,6,6,10,14,17,17-heptamethyl-21,22-dioxahexacyclo[18.2.2.0¹,¹⁴.0²,¹¹.0⁵,¹⁰.0¹⁵,²⁰]tetracos-23-ene-7,8-diol is found in Euphorbia ebracteolata. 2,6,6,10,14,17,17-heptamethyl-21,22-dioxahexacyclo[18.2.2.0¹,¹⁴.0²,¹¹.0⁵,¹⁰.0¹⁵,²⁰]tetracos-23-ene-7,8-diol was first documented in 2022 (PMID: 35248661). Based on a literature review a small amount of articles have been published on Baccatin (PMID: 35988011) (PMID: 35972514) (PMID: 35805152) (PMID: 35802666).
Structure
Thumb
SynonymsNot Available
Chemical FormulaC29H46O4
Average Mass458.6830 Da
Monoisotopic Mass458.33961 Da
IUPAC Name2,6,6,10,14,17,17-heptamethyl-21,22-dioxahexacyclo[18.2.2.0^{1,14}.0^{2,11}.0^{5,10}.0^{15,20}]tetracos-23-ene-7,8-diol
Traditional Name2,6,6,10,14,17,17-heptamethyl-21,22-dioxahexacyclo[18.2.2.0^{1,14}.0^{2,11}.0^{5,10}.0^{15,20}]tetracos-23-ene-7,8-diol
CAS Registry NumberNot Available
SMILES
CC1(C)CCC23OOC4(C=C2)C2(C)CCC5C(C)(C)C(O)C(O)CC5(C)C2CCC4(C)C3C1
InChI Identifier
InChI=1S/C29H46O4/c1-23(2)12-13-28-14-15-29(33-32-28)26(6)10-8-19-24(3,4)22(31)18(30)16-25(19,5)20(26)9-11-27(29,7)21(28)17-23/h14-15,18-22,30-31H,8-13,16-17H2,1-7H3
InChI KeyFMQSPIDOGLAJKQ-UHFFFAOYSA-N
Experimental Spectra
Not Available
Predicted Spectra
Spectrum TypeDescriptionDepositor IDDepositor OrganizationDepositorDeposition DateView
1D NMR13C NMR Spectrum (1D, 25 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR1H NMR Spectrum (1D, 100 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR13C NMR Spectrum (1D, 252 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR1H NMR Spectrum (1D, 1000 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR13C NMR Spectrum (1D, 50 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR1H NMR Spectrum (1D, 200 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR13C NMR Spectrum (1D, 75 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR1H NMR Spectrum (1D, 300 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR13C NMR Spectrum (1D, 101 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR1H NMR Spectrum (1D, 400 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR13C NMR Spectrum (1D, 126 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR1H NMR Spectrum (1D, 500 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR13C NMR Spectrum (1D, 151 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR1H NMR Spectrum (1D, 600 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR13C NMR Spectrum (1D, 176 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR1H NMR Spectrum (1D, 700 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR13C NMR Spectrum (1D, 201 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR1H NMR Spectrum (1D, 800 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR13C NMR Spectrum (1D, 226 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
1D NMR1H NMR Spectrum (1D, 900 MHz, H2O, predicted)Wishart LabWishart LabDavid Wishart2021-06-20View Spectrum
Chemical Shift Submissions
Not Available
Species
Species of Origin
Species NameSourceReference
Euphorbia ebracteolataLOTUS Database
Chemical Taxonomy
Description Belongs to the class of organic compounds known as scalarane sesterterpenoids. These are sesterterpenoids with a structure based on the scalarane backbone. Scalarane is a tetracyclic compound, which is similar the homoandrostane with five methyl groups at the 4-, 4-, 8-, 17-, 17a-positions.
KingdomOrganic compounds
Super ClassLipids and lipid-like molecules
ClassPrenol lipids
Sub ClassSesterterpenoids
Direct ParentScalarane sesterterpenoids
Alternative Parents
Substituents
  • Scalarane sesterterpenoid
  • Ortho-dioxane
  • Cyclic alcohol
  • Dialkyl peroxide
  • Secondary alcohol
  • 1,2-diol
  • Oxacycle
  • Organoheterocyclic compound
  • Organic oxygen compound
  • Hydrocarbon derivative
  • Organooxygen compound
  • Alcohol
  • Aliphatic heteropolycyclic compound
Molecular FrameworkAliphatic heteropolycyclic compounds
External DescriptorsNot Available
Physical Properties
StateNot Available
Experimental Properties
PropertyValueReference
Melting PointNot AvailableNot Available
Boiling PointNot AvailableNot Available
Water SolubilityNot AvailableNot Available
LogPNot AvailableNot Available
Predicted Properties
PropertyValueSource
logP4.9ALOGPS
logP5.49ChemAxon
logS-6.1ALOGPS
pKa (Strongest Acidic)13.63ChemAxon
pKa (Strongest Basic)-3.2ChemAxon
Physiological Charge0ChemAxon
Hydrogen Acceptor Count4ChemAxon
Hydrogen Donor Count2ChemAxon
Polar Surface Area58.92 ŲChemAxon
Rotatable Bond Count0ChemAxon
Refractivity129.3 m³·mol⁻¹ChemAxon
Polarizability54.24 ųChemAxon
Number of Rings6ChemAxon
BioavailabilityYesChemAxon
Rule of FiveNoChemAxon
Ghose FilterNoChemAxon
Veber's RuleNoChemAxon
MDDR-like RuleNoChemAxon
HMDB IDHMDB0248837
DrugBank IDNot Available
Phenol Explorer Compound IDNot Available
FoodDB IDNot Available
KNApSAcK IDC00035995
Chemspider IDNot Available
KEGG Compound IDNot Available
BioCyc IDNot Available
BiGG IDNot Available
Wikipedia LinkNot Available
METLIN IDNot Available
PubChem Compound124222279
PDB IDNot Available
ChEBI IDNot Available
Good Scents IDNot Available
References
General References
  1. Jiao J, Xu XJ, Lu Y, Liu J, Fu YJ, Fu JX, Gai QY: Identification of genes associated with biosynthesis of bioactive flavonoids and taxoids in Taxus cuspidata Sieb. et Zucc. plantlets exposed to UV-B radiation. Gene. 2022 May 20;823:146384. doi: 10.1016/j.gene.2022.146384. Epub 2022 Mar 3. [PubMed:35248661 ]
  2. Hazrati R, Zare N, Asghari-Zakaria R, Sheikhzadeh P, Johari-Ahar M: Factors affecting the growth, antioxidant potential, and secondary metabolites production in hazel callus cultures. AMB Express. 2022 Aug 20;12(1):109. doi: 10.1186/s13568-022-01449-z. [PubMed:35988011 ]
  3. Hazrati R, Zare N, Asghari R, Sheikhzadeh P, Johari-Ahar M: Biologically synthesized CuO nanoparticles induce physiological, metabolic, and molecular changes in the hazel cell cultures. Appl Microbiol Biotechnol. 2022 Sep;106(18):6017-6031. doi: 10.1007/s00253-022-12107-6. Epub 2022 Aug 16. [PubMed:35972514 ]
  4. Syklowska-Baranek K, Sygitowicz G, Maciejak-Jastrzebska A, Pietrosiuk A, Szakiel A: Application of Priming Strategy for Enhanced Paclitaxel Biosynthesis in Taxus x Media Hairy Root Cultures. Cells. 2022 Jun 29;11(13):2062. doi: 10.3390/cells11132062. [PubMed:35805152 ]
  5. Chiocchio I, Barbaresi A, Barbanti L, Mandrone M, Poli F, Torreggiani D, Trenta M, Tassinari P: Effects of LED supplemental lighting on the growth and metabolomic profile of Taxus baccata cultivated in a smart greenhouse. PLoS One. 2022 Jul 8;17(7):e0266777. doi: 10.1371/journal.pone.0266777. eCollection 2022. [PubMed:35802666 ]
  6. LOTUS database [Link]